diff options
Diffstat (limited to 'coil_test_board.py')
| -rw-r--r-- | coil_test_board.py | 483 |
1 files changed, 0 insertions, 483 deletions
diff --git a/coil_test_board.py b/coil_test_board.py deleted file mode 100644 index af47ddf..0000000 --- a/coil_test_board.py +++ /dev/null @@ -1,483 +0,0 @@ -#!/usr/bin/env python3 - -import math -import hashlib -import re -import itertools -import datetime -import tempfile -import subprocess -import sqlite3 -import json -from pathlib import Path - -import tqdm - -import gerbonara.cad.kicad.pcb as pcb -import gerbonara.cad.kicad.footprints as fp -import gerbonara.cad.primitives as cad_pr -import gerbonara.cad.kicad.graphical_primitives as kc_gr - - -cols = 5 -rows = 5 - -coil_specs = [ - {'n': 1, 's': True, 't': 1, 'c': 0.20, 'w': 5.00, 'd': 3.00, 'v': 5.00}, - {'n': 2, 's': True, 't': 1, 'c': 0.20, 'w': 3.00, 'd': 1.50, 'v': 3.00}, - {'n': 3, 's': True, 't': 1, 'c': 0.20, 'w': 1.50, 'd': 1.20, 'v': 2.00}, - {'n': 5, 's': True, 't': 1, 'c': 0.20, 'w': 0.80, 'd': 0.40, 'v': 0.80}, - {'n': 10, 's': True, 't': 1, 'c': 0.20, 'w': 0.50, 'd': 0.30, 'v': 0.60}, - {'n': 25, 's': True, 't': 1, 'c': 0.15, 'w': 0.25, 'd': 0.30, 'v': 0.60}, - - {'n': 1, 's': False, 't': 3, 'c': 0.20, 'w': 5.00, 'd': 3.00, 'v': 5.00}, - {'n': 2, 's': False, 't': 1, 'c': 0.20, 'w': 3.00, 'd': 1.50, 'v': 3.00}, - {'n': 3, 's': False, 't': 1, 'c': 0.20, 'w': 2.50, 'd': 1.20, 'v': 2.00}, - {'n': 5, 's': False, 't': 1, 'c': 0.20, 'w': 2.50, 'd': 1.20, 'v': 0.80}, - {'n': 10, 's': False, 't': 1, 'c': 0.20, 'w': 1.50, 'd': 0.80, 'v': 0.60}, - {'n': 25, 's': False, 't': 1, 'c': 0.15, 'w': 0.50, 'd': 0.30, 'v': 0.60}, - - {'n': 1, 's': False, 't': 4, 'c': 0.20, 'w': 5.00, 'd': 3.00, 'v': 5.00}, - {'n': 2, 's': False, 't': 3, 'c': 0.20, 'w': 3.00, 'd': 1.50, 'v': 3.00}, - {'n': 3, 's': False, 't': 4, 'c': 0.20, 'w': 2.50, 'd': 1.20, 'v': 2.00}, - {'n': 5, 's': False, 't': 3, 'c': 0.20, 'w': 2.50, 'd': 1.20, 'v': 0.80}, - {'n': 10, 's': False, 't': 3, 'c': 0.20, 'w': 1.50, 'd': 0.80, 'v': 0.60}, - {'n': 25, 's': False, 't': 3, 'c': 0.15, 'w': 0.50, 'd': 0.30, 'v': 0.60}, - - {'n': 1, 's': False, 't': 5, 'c': 0.20, 'w': 5.00, 'd': 3.00, 'v': 5.00}, - {'n': 2, 's': False, 't': 5, 'c': 0.20, 'w': 3.00, 'd': 1.50, 'v': 3.00}, - {'n': 3, 's': False, 't': 4, 'c': 0.20, 'w': 2.50, 'd': 1.20, 'v': 2.00}, - {'n': 5, 's': False, 't': 7, 'c': 0.20, 'w': 2.50, 'd': 1.20, 'v': 0.80}, - {'n': 10, 's': False, 't': 7, 'c': 0.20, 'w': 1.50, 'd': 0.80, 'v': 0.60}, - {'n': 25, 's': False, 't': 13, 'c': 0.15, 'w': 0.50, 'd': 0.30, 'v': 0.60}, - - {'n': 25, 's': False, 't': 37, 'c': 0.15, 'w': 0.50, 'd': 0.30, 'v': 0.60}, -] - -cachedir = Path('/tmp/coil_test_cache') -version_string = 'v1.0' -coil_border = 7 # mm -cut_gap = 8 # mm -tooling_border = 10 # mm -vscore_extra = 10 # mm -mouse_bite_width = 8 # mm -mouse_bite_yoff = 0.175 -mouse_bite_hole_dia = 0.7 -mouse_bite_hole_spacing = 0.7 -hole_offset = 5 -hole_dia = 3.2 -coil_dia = 35 # mm -coil_inner_dia = 15 # mm -board_thickness = 0.80 # mm -pad_offset = 2 # mm -pad_dia = 2.0 # mm -pad_length = 3.5 # mm -pad_drill = 1.1 # mm -pad_pitch = 2.54 # mm -join_trace_w = 0.150 # mm -do_v_cuts = False -do_mouse_bites = False -do_cut_gaps = False - -db = sqlite3.connect('coil_parameters.sqlite3') -db.execute('CREATE TABLE IF NOT EXISTS runs (run_id INTEGER PRIMARY KEY, timestamp TEXT, version TEXT)') -db.execute('CREATE TABLE IF NOT EXISTS coils (coil_id INTEGER PRIMARY KEY, run_id INTEGER, FOREIGN KEY (run_id) REFERENCES runs(run_id))') -db.execute('CREATE TABLE IF NOT EXISTS results (result_id INTEGER PRIMARY KEY, coil_id INTEGER, key TEXT, value TEXT, FOREIGN KEY (coil_id) REFERENCES coils(coil_id))') -cur = db.cursor() -cur.execute('INSERT INTO runs(timestamp, version) VALUES (datetime("now"), ?)', (version_string,)) -run_id = cur.lastrowid -db.commit() - -tile_width = tile_height = coil_dia + 2*coil_border -coil_pitch_v = tile_width + cut_gap -coil_pitch_h = tile_height + cut_gap - -total_width = coil_pitch_h*cols + 2*tooling_border + cut_gap -total_height = coil_pitch_v*rows + 2*tooling_border + cut_gap - -drawing_text_size = 2.0 - -print(f'Calculated board size: {total_width:.2f} * {total_height:.2f} mm') -print(f'Tile size: {tile_height:.2f} * {tile_height:.2f} mm') - -x0, y0 = 100, 100 - -xy = pcb.XYCoord -b = pcb.Board.empty_board(page=pcb.PageSettings(page_format='A2')) - -b.add(kc_gr.Rectangle(xy(x0, y0), xy(x0+total_width, y0+total_height), layer='Edge.Cuts', stroke=pcb.Stroke(width=0.15))) - -def do_line(x0, y0, x1, y1, off_x=0, off_y=0): - b.add(kc_gr.Line(xy(x0+off_x, y0+off_y), - xy(x1+off_x, y1+off_y), - layer='Edge.Cuts', stroke=pcb.Stroke(width=0.15))) - -if do_v_cuts: - for y in range(rows): - for off_y in [0, tile_height]: - y_pos = y0 + tooling_border + cut_gap + off_y + y*coil_pitch_v - do_line(x0 - vscore_extra, y_pos, x0 + total_width + vscore_extra, y_pos) - b.add(kc_gr.Text(text='V-score', - at=pcb.AtPos(x0 + total_width + vscore_extra + drawing_text_size/2, y_pos, 0), - layer=kc_gr.TextLayer('Edge.Cuts'), - effects=pcb.TextEffect( - font=pcb.FontSpec(size=xy(drawing_text_size, drawing_text_size), - thickness=drawing_text_size/10), - justify=pcb.Justify(h=pcb.Atom.left)))) - - - for x in range(cols): - for off_x in [0, tile_width]: - x_pos = x0 + tooling_border + cut_gap + off_x + x*coil_pitch_h - do_line(x_pos, y0 - vscore_extra, x_pos, y0 + total_height + vscore_extra) - b.add(kc_gr.Text(text='V-score', - at=pcb.AtPos(x_pos, y0 + total_height + vscore_extra + drawing_text_size/2, 90), - layer=kc_gr.TextLayer('Edge.Cuts'), - effects=pcb.TextEffect( - font=pcb.FontSpec(size=xy(drawing_text_size, drawing_text_size), - thickness=drawing_text_size/10), - justify=pcb.Justify(h=pcb.Atom.right)))) - -def draw_corner(x0, y0, spokes): - right, top, left, bottom = [True if c.lower() in 'y1' else False for c in spokes] - - l = (tile_width - mouse_bite_width)/2 - cut_gap/2 - - if right: - do_line(cut_gap/2, -cut_gap/2, cut_gap/2 + l, -cut_gap/2, x0, y0) - do_line(cut_gap/2, cut_gap/2, cut_gap/2 + l, cut_gap/2, x0, y0) - b.add(kc_gr.Arc(start=xy(x0+cut_gap/2+l, y0-cut_gap/2), - end=xy(x0+cut_gap/2+l, y0+cut_gap/2), - center=xy(x0+cut_gap/2+l, y0), - layer='Edge.Cuts', - stroke=pcb.Stroke(width=0.15))) - - else: - do_line(cut_gap/2, -cut_gap/2, cut_gap/2, cut_gap/2, x0, y0) - - if left: - do_line(-cut_gap/2, -cut_gap/2, -cut_gap/2 - l, -cut_gap/2, x0, y0) - do_line(-cut_gap/2, cut_gap/2, -cut_gap/2 - l, cut_gap/2, x0, y0) - b.add(kc_gr.Arc(end=xy(x0-cut_gap/2-l, y0-cut_gap/2), - start=xy(x0-cut_gap/2-l, y0+cut_gap/2), - center=xy(x0-cut_gap/2-l, y0), - layer='Edge.Cuts', - stroke=pcb.Stroke(width=0.15))) - - else: - do_line(-cut_gap/2, -cut_gap/2, -cut_gap/2, cut_gap/2, x0, y0) - - if bottom: - do_line(-cut_gap/2, cut_gap/2, -cut_gap/2, cut_gap/2 + l, x0, y0) - do_line(cut_gap/2, cut_gap/2, cut_gap/2, cut_gap/2 + l, x0, y0) - b.add(kc_gr.Arc(end=xy(x0-cut_gap/2, y0+cut_gap/2+l), - start=xy(x0+cut_gap/2, y0+cut_gap/2+l), - center=xy(x0, y0+cut_gap/2+l), - layer='Edge.Cuts', - stroke=pcb.Stroke(width=0.15))) - - else: - do_line(-cut_gap/2, cut_gap/2, cut_gap/2, cut_gap/2, x0, y0) - - if top: - do_line(-cut_gap/2, -cut_gap/2, -cut_gap/2, -cut_gap/2 - l, x0, y0) - do_line(cut_gap/2, -cut_gap/2, cut_gap/2, -cut_gap/2 - l, x0, y0) - b.add(kc_gr.Arc(start=xy(x0-cut_gap/2, y0-cut_gap/2-l), - end=xy(x0+cut_gap/2, y0-cut_gap/2-l), - center=xy(x0, y0-cut_gap/2-l), - layer='Edge.Cuts', - stroke=pcb.Stroke(width=0.15))) - else: - - do_line(-cut_gap/2, -cut_gap/2, cut_gap/2, -cut_gap/2, x0, y0) - - -def make_mouse_bite(x, y, rot=0, width=mouse_bite_width, hole_dia=mouse_bite_hole_dia, hole_spacing=mouse_bite_hole_spacing, **kwargs): - - pitch = hole_dia + hole_spacing - num_holes = int(math.floor((width - hole_dia) / pitch)) + 1 - - actual_spacing = (width - num_holes*hole_dia) / (num_holes - 1) - pitch = hole_dia + actual_spacing - - f = fp.Footprint(name='mouse_bite', _version=None, generator=None, at=fp.AtPos(x, y, rot), **kwargs) - for i in range(num_holes): - f.pads.append(fp.Pad( - number='1', - type=fp.Atom.np_thru_hole, - shape=fp.Atom.circle, - at=fp.AtPos(-width/2 + i*pitch + hole_dia/2, 0, 0), - size=xy(hole_dia, hole_dia), - drill=fp.Drill(diameter=hole_dia), - footprint=f)) - return f - - -def make_hole(x, y, dia, **kwargs): - f = fp.Footprint(name='hole', _version=None, generator=None, at=fp.AtPos(x, y, 0), **kwargs) - f.pads.append(fp.Pad( - number='1', - type=fp.Atom.np_thru_hole, - shape=fp.Atom.circle, - at=fp.AtPos(0, 0, 0), - size=xy(dia, dia), - drill=fp.Drill(diameter=dia), - footprint=f)) - return f - - -def make_pads(x, y, rot, n, pad_dia, pad_length, drill, pitch, **kwargs): - f = fp.Footprint(name=f'conn_gen_01x{n}', _version=None, generator=None, at=fp.AtPos(x, y, rot), **kwargs) - - for i in range(n): - f.pads.append(fp.Pad( - number=str(i+1), - type=fp.Atom.thru_hole, - shape=fp.Atom.oval, - at=fp.AtPos(-pitch*(n-1)/2 + i*pitch, 0, rot), - size=xy(pad_dia, pad_length), - drill=fp.Drill(diameter=drill), - footprint=f)) - - return f - - -corner_x0 = x0 + tooling_border + cut_gap/2 -corner_y0 = y0 + tooling_border + cut_gap/2 -corner_x1 = x0 + total_width - tooling_border - cut_gap/2 -corner_y1 = y0 + total_height - tooling_border - cut_gap/2 - -if do_cut_gaps: - # Corners - draw_corner(corner_x0, corner_y0, 'YNNY') - draw_corner(corner_x0, corner_y1, 'YYNN') - draw_corner(corner_x1, corner_y0, 'NNYY') - draw_corner(corner_x1, corner_y1, 'NYYN') - - # Top / bottom T junctions - for x in range(1, cols): - draw_corner(corner_x0 + x*coil_pitch_h, corner_y0, 'YYNY') - draw_corner(corner_x0 + x*coil_pitch_h, corner_y1, 'NYYY') - - # Left / right T junctions - for y in range(1, rows): - draw_corner(corner_x0, corner_y0 + y*coil_pitch_v, 'YYNY') - draw_corner(corner_x1, corner_y0 + y*coil_pitch_v, 'NYYY') - - # Middle X junctions - for y in range(1, rows): - for x in range(1, cols): - draw_corner(corner_x0 + x*coil_pitch_h, corner_y0 + y*coil_pitch_v, 'YYYY') - -else: - for layer in ('F.SilkS', 'B.SilkS'): - for x in range(0, cols+1): - cx = x0 + tooling_border + cut_gap/2 + x*coil_pitch_h - b.add(kc_gr.Line(xy(cx, corner_y0), - xy(cx, corner_y1), - layer=layer, stroke=pcb.Stroke(width=0.15))) - - for y in range(0, rows+1): - cy = y0 + tooling_border + cut_gap/2 + y*coil_pitch_v - b.add(kc_gr.Line(xy(corner_x0, cy), - xy(corner_x1, cy), - layer=layer, stroke=pcb.Stroke(width=0.15))) - - -# Mouse bites -if do_mouse_bites: - for x in range(0, cols): - for y in range(0, rows): - tile_x0 = x0 + tooling_border + cut_gap + x*coil_pitch_h - tile_y0 = y0 + tooling_border + cut_gap + y*coil_pitch_v - - b.add(make_mouse_bite(tile_x0 + tile_width/2, tile_y0 - mouse_bite_hole_dia/2, 0)) - b.add(make_mouse_bite(tile_x0 + tile_width/2, tile_y0 + tile_height + mouse_bite_hole_dia/2, 0)) - b.add(make_mouse_bite(tile_x0 - mouse_bite_hole_dia/2, tile_y0 + tile_height/2, 90)) - b.add(make_mouse_bite(tile_x0 + tile_width + mouse_bite_hole_dia/2, tile_y0 + tile_height/2, 90)) - -# Mounting holes -for x in range(0, cols): - for y in range(0, rows): - tile_x0 = x0 + tooling_border + cut_gap + x*coil_pitch_h + tile_width/2 - tile_y0 = y0 + tooling_border + cut_gap + y*coil_pitch_v + tile_height/2 - - dx = tile_width/2 - hole_offset - dy = tile_height/2 - hole_offset - b.add(make_hole(tile_x0 - dx, tile_y0 - dy, hole_dia)) - b.add(make_hole(tile_x0 - dx, tile_y0 + dy, hole_dia)) - b.add(make_hole(tile_x0 + dx, tile_y0 - dy, hole_dia)) - b.add(make_hole(tile_x0 + dx, tile_y0 + dy, hole_dia)) - -# border graphics -c = 3 -for layer in ['F.SilkS', 'B.SilkS']: - b.add(kc_gr.Rectangle(start=xy(x0, y0), end=xy(x0+c, y0+total_height), layer=layer, stroke=pcb.Stroke(width=0), - fill=kc_gr.FillMode(pcb.Atom.solid))) - b.add(kc_gr.Rectangle(start=xy(x0, y0), end=xy(x0+total_width, y0+c), layer=layer, stroke=pcb.Stroke(width=0), - fill=kc_gr.FillMode(pcb.Atom.solid))) - b.add(kc_gr.Rectangle(start=xy(x0+total_width-c, y0), end=xy(x0+total_width, y0+total_height), layer=layer, stroke=pcb.Stroke(width=0), - fill=kc_gr.FillMode(pcb.Atom.solid))) - b.add(kc_gr.Rectangle(start=xy(x0, y0+total_height-c), end=xy(x0+total_width, y0+total_height), layer=layer, stroke=pcb.Stroke(width=0), - fill=kc_gr.FillMode(pcb.Atom.solid))) - -a = 3 -timestamp = datetime.datetime.now().strftime('%Y-%m-%d') -b.add(kc_gr.Text(text=f'Planar inductor test panel', - at=pcb.AtPos(x0 + tooling_border + cut_gap/2, y0 + c + 2*a/3), - layer=kc_gr.TextLayer('F.SilkS'), - effects=pcb.TextEffect( - font=pcb.FontSpec(face="Inter Semi Bold", - size=xy(6*a/3, 6*a/3), - thickness=a/5), - justify=pcb.Justify(h=pcb.Atom.left, v=pcb.Atom.top)))) - -b.add(kc_gr.Text(text=f'{version_string} {timestamp} © 2023 Jan Götte, FG KOM, TU Darmstadt', - at=pcb.AtPos(x0 + total_width - tooling_border - cut_gap/2, y0 + c + 4*a/3), - layer=kc_gr.TextLayer('F.SilkS'), - effects=pcb.TextEffect( - font=pcb.FontSpec(face="Inter Light", - size=xy(a, a), - thickness=a/5), - justify=pcb.Justify(h=pcb.Atom.right, v=pcb.Atom.top)))) - -for index, ((y, x), spec) in tqdm.tqdm(enumerate(zip(itertools.product(range(rows), range(cols)), coil_specs), start=1)): - pass - with tempfile.NamedTemporaryFile(suffix='.kicad_mod') as f: - tile_x0 = x0 + tooling_border + cut_gap + x*coil_pitch_h + tile_width/2 - tile_y0 = y0 + tooling_border + cut_gap + y*coil_pitch_v + tile_height/2 - - for key, alias in { - 'gen.inner_diameter': 'id', - 'gen.outer_diameter': 'od', - 'gen.trace_width': 'w', - 'gen.turns': 'n', - 'gen.twists': 't', - 'gen.clearance': 'c', - 'gen.single_layer': 's', - 'gen.via_drill': 'd', - 'gen.via_diameter': 'v'}.items(): - if alias in spec: - spec[key] = spec.pop(alias) - - if 'gen.via_diameter' not in spec: - spec['gen.via_diameter'] = spec['gen.trace_width'] - - if 'gen.inner_diameter' not in spec: - spec['gen.inner_diameter'] = coil_inner_dia - - if 'gen.outer_diameter' not in spec: - spec['gen.outer_diameter'] = coil_dia - - args = ['python', '-m', 'twisted_coil_gen_twolayer', '--no-keepout-zone'] - for k, v in spec.items(): - prefix, _, k = k.partition('.') - if (not isinstance(v, bool) or v) and prefix == 'gen': - args.append('--' + k.replace('_', '-')) - if v is not True: - args.append(str(v)) - - arg_digest = hashlib.sha3_256(' / '.join(map(str, args)).encode()).hexdigest() - cachedir.mkdir(exist_ok=True) - cache_file = cachedir / f'C-{arg_digest}.kicad_mod' - log_file = cachedir / f'Q-{arg_digest}.kicad_mod' - if not cache_file.is_file(): - args.append(cache_file) - try: - res = subprocess.run(args, check=True, capture_output=True, text=True) - log_file.write_text(res.stdout + res.stderr) - except subprocess.CalledProcessError as e: - print(f'Error generating coil with command line {args}, rc={e.returncode}') - print(e.stdout) - print(e.stderr) - - coil = fp.Footprint.open_mod(cache_file) - coil.at = fp.AtPos(tile_x0, tile_y0, 0) - b.add(coil) - - t = [f'n={spec["gen.turns"]}', - f'{spec["gen.twists"]} twists', - f'w={spec["gen.trace_width"]:.2f}mm'] - if spec.get('gen.single_layer'): - t.append('single layer') - - spec['gen.board_thickness'] = board_thickness - cur.execute('INSERT INTO coils(run_id) VALUES (?)', (run_id,)) - coil_id = cur.lastrowid - - for key, value in spec.items(): - if isinstance(value, bool): - value = str(value) - db.execute('INSERT INTO results(coil_id, key, value) VALUES (?, ?, ?)', (coil_id, key, value)) - - for l in log_file.read_text().splitlines(): - if (m := re.fullmatch(r'Approximate inductance:\s*([-+.0-9eE]+)\s*µH', l.strip())): - val = float(m.group(1)) * 1e-6 - db.execute('INSERT INTO results(coil_id, key, value) VALUES (?, "calculated_approximate_inductance", ?)', (coil_id, val)) - if (m := re.fullmatch(r'Approximate track length:\s*([-+.0-9eE]+)\s*mm', l.strip())): - val = float(m.group(1)) * 1e-3 - db.execute('INSERT INTO results(coil_id, key, value) VALUES (?, "calculated_trace_length", ?)', (coil_id, val)) - if (m := re.fullmatch(r'Approximate resistance:\s*([-+.0-9eE]+)\s*Ω', l.strip())): - val = float(m.group(1)) - db.execute('INSERT INTO results(coil_id, key, value) VALUES (?, "calculated_approximate_resistance", ?)', (coil_id, val)) - if (m := re.fullmatch(r'Fill factor:\s*([-+.0-9eE]+)', l.strip())): - val = float(m.group(1)) - db.execute('INSERT INTO results(coil_id, key, value) VALUES (?, "calculated_fill_factor", ?)', (coil_id, val)) - db.commit() - - sz = 2 - b.add(kc_gr.Text(text='\\n'.join(t), - at=pcb.AtPos(tile_x0, tile_y0), - layer=kc_gr.TextLayer('B.SilkS'), - effects=pcb.TextEffect( - font=pcb.FontSpec(face='Inter Medium', - size=xy(sz, sz), - thickness=sz/5), - justify=pcb.Justify(h=None, v=None, mirror=True)))) - - b.add(kc_gr.Text(text=f'Tile {index}', - at=pcb.AtPos(tile_x0, tile_y0 - tile_height/2 + sz), - layer=kc_gr.TextLayer('B.SilkS'), - effects=pcb.TextEffect( - font=pcb.FontSpec(face='Inter Semi Bold', - size=xy(sz, sz), - thickness=sz/5), - justify=pcb.Justify(h=None, v=pcb.Atom.top, mirror=True)))) - - b.add(kc_gr.Text(text=f'{version_string} {timestamp}', - at=pcb.AtPos(tile_x0, tile_y0 - tile_height/2 + sz*2.4), - layer=kc_gr.TextLayer('B.SilkS'), - effects=pcb.TextEffect( - font=pcb.FontSpec(face='Inter Light', - size=xy(sz, sz), - thickness=sz/5), - justify=pcb.Justify(h=None, v=pcb.Atom.top, mirror=True)))) - - b.add(kc_gr.Text(text=f'{index}', - at=pcb.AtPos(tile_x0, tile_y0 - tile_height/2 + sz), - layer=kc_gr.TextLayer('F.SilkS'), - effects=pcb.TextEffect( - font=pcb.FontSpec(face='Inter Medium', - size=xy(sz, sz), - thickness=sz/5), - justify=pcb.Justify(h=None, v=pcb.Atom.top, mirror=False)))) - - pads_x0 = tile_x0 + tile_width/2 - pad_offset - pads = make_pads(pads_x0, tile_y0, 270, 2, pad_dia, pad_length, pad_drill, pad_pitch) - b.add(pads) - - w = min(spec.get('gen.trace_width', pad_dia), pad_dia) - wx, wy, _r, _f = pads.pad(2).abs_pos - w2 = (wx - pad_length/2, wy) - wx, wy, _r, _f = pads.pad(1).abs_pos - w1 = (wx - pad_length/2, wy) - b.add(cad_pr.Trace(w, coil.pad(1), pads.pad(1), waypoints=[w1], orientation=['ccw'], side='top')) - b.add(cad_pr.Trace(w, coil.pad(2), pads.pad(2), waypoints=[w2], orientation=['cw'], side='bottom')) - - k = 3 - for layer in ['F.SilkS', 'B.SilkS']: - b.add(kc_gr.Rectangle(start=xy(wx-k/2, wy-pad_pitch-k/2), end=xy(wx+k/2, wy-pad_pitch), layer=layer, stroke=pcb.Stroke(width=0), - fill=kc_gr.FillMode(pcb.Atom.solid))) - -b.write('coil_test_board.kicad_pcb') - |